CN103128336A - Hole-machining component of horizontal lathe - Google Patents
Hole-machining component of horizontal lathe Download PDFInfo
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- CN103128336A CN103128336A CN2011103922248A CN201110392224A CN103128336A CN 103128336 A CN103128336 A CN 103128336A CN 2011103922248 A CN2011103922248 A CN 2011103922248A CN 201110392224 A CN201110392224 A CN 201110392224A CN 103128336 A CN103128336 A CN 103128336A
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Abstract
The invention discloses a hole-machining working table component used for machining of drill holes in horizontal engine lathes and horizontal numerically controlled lathes. The hole-machining component of the horizontal lathe comprises a sliding guide rail, a numerically controlled vertical or horizontal multi-stage rotary knife rest, a ball screw, a guide rail connecting seat matched with the ball screw, a locking nut, a coupling, an anti-dust shade, a drive motor and the like. Compared with the prior art, through a sliding guide rail working table which is arranged on a guide rail of an original horizontal engine lathe or a numerically controlled horizontal lathe, stable and large-stroke reciprocating movement can be conducted, speed is changeable, and high-intensity manual labor of turning a hand wheel on the table tail by hands can be eliminated. Through accurate drive of a program of an industrial programmable logic controller (PLC), accuracy and uniformity of procedure size such as the drilling holes or boring holes can be ensured, and manual labor intensity is relieved. Through automatic tool changing operation of the numerically controlled multi-stage knife rest, a plurality of machining tools can be replaced rapidly, a machining size can be obtained accurately, and the advantage of full automation can be achieved.
Description
Technical field
The present invention relates to the horizontal lathe field, specifically, the present invention relates to a kind of lathe hole processing assembly that comprises engine lathe and horizontal NC lathe, the boring bore hole structure of particularly using at horizontal engine lathe and horizontal NC lathe.
Background technology
From the manufacturing of First lathe be born, be applied to 2011 now, horizontal NC lathe from common horizontal lathe to the modern times, boring or bore hole on these lathes all to rotate by hand one as shown in figs. 1 and 2, handwheel E on platform tail (also claiming tailstock) C, be transferred to sleeve D by screw mandrel and nut H, drill bit or boring cutter are installed, at the part of horizontal engine lathe and the porose class operation of horizontal NC lathe processing on sleeve D.Also have platform tail (also claiming tailstock) upper install a motor drive handwheel or directly the handle rotation become belt pulley to carry out simple power-assisted work.
Such work has significant limitation: once can only fill a hole machining tool, process the hole at every turn, also want manual and move to the lathe bed rear end of lathe to the platform tail, otherwise produce the interference that platform tail and saddle move and cause cisco unity malfunction.This work has a loaded down with trivial details operating process, and labour intensity is large, manual operations efficient is low, the processing length size in hole is difficult to control, and once can only fill a drill bit or boring cutter, if this part is the stepped hole of many diameters, that more needs loaded down with trivial details more bit change or boring cutter continually, working (machining) efficiency is extremely low, and precision is unstable especially.Also continued to use platform tail (also the claiming tailstock) manual operating mechanism of this machining hole on the horizontal NC lathe in modern times.In the turning processing of modernization numerically controlled lathe, the drawback of this manual tail mechanism is more outstanding, the working (machining) efficiency of its mesopore is low, the bad control of precision, causing on the one hand is numerical control operating, must operate by hand when being machining hole on the other hand, more caused discordant course of work, and process the hole of many steps, also need to change cutter, the skilled worker does such work loaded down with trivial detailsly, and is time-consuming again, effort sometimes has to divide these parts two or more operations to carry out the processing in hole on other lathe.In such process, part need to be through repeatedly being installed, this has destroyed the appearance quality of part, simultaneously, the axiality of part is difficult to again guarantee, and repeatedly be installed and consume a lot of man-hours, see and need to increase a lot of corresponding auxiliary facilities from factory floor production angle, the power-assisted work of this hand drill mechanism or simple motor pulley transmission, work in-process has exposed that to expend man-hour and expend equipment money former, also will expend the factory site, and working (machining) efficiency is low, the shortcomings such as machining accuracy is low, labour intensity is large.
Therefore, platform tail mechanism for Drilling operation on above-mentioned horizontal engine lathe and horizontal NC lathe changes, carry out the processing in hole by multi-functional hole processing work platform component application on horizontal engine lathe and horizontal NC lathe, namely complete Excircle machining to realize that part by one-step is installed, and completing roughing and the fine finishining of a plurality of stepped holes by this multi-functional hole processing work platform, is horizontal engine lathe and horizontal NC lathe career field problem in the urgent need to address again.
Summary of the invention
Based on defective of the prior art, the object of the present invention is to provide a kind of reduction production hour, increase work efficiency, guarantee part processing precision, the hole processing work platform assembly that the horizontal lathe of reduction labor strength is used.
For achieving the above object, the present invention has adopted following technical scheme:
the hole processing work platform assembly that a kind of horizontal lathe is used, comprise the workbench with guide rail, ball screw, Connection Block with guide rail, adapter sleeve, the protective jacket of ball screw, multi-station digital-controlled knife rest, motor and drive assembly, be provided with two cover guide rails on the horizontal engine lathe in its Central Plains or numerical-control horizontal lathe lathe bed, every cover guide rail is comprised of a flat guide and a V-way, two cover guide rail parallels are arranged on the body of lathe bed, workbench with guide rail is arranged on one of two cover guide rails, and workbench is done sliding motion along this cover guide rail, multi-station digital-controlled knife rest is arranged on this workbench with guide rail, Connection Block with guide rail is fixed on another set of guide rail, adapter sleeve is fixedly connected on between the Connection Block of guide rail and motor and drive assembly, workbench center with guide rail is provided with ball-screw, the ball-screw external mounting has protective jacket, transfer realization with the reciprocating motion of the workbench of guide rail by the positive and negative of ball screw.
Preferably, above-mentioned horizontal lathe comprises horizontal engine lathe and horizontal NC lathe.
Preferably, can exchange between two cover guide rails with the workbench of guide rail with the setting position of the Connection Block of guide rail.
Further, rotatablely moving of ball screw converts rectilinear motion to, comes the workbench of rotating band guide rail to move back and forth on lathe.
In addition, the present invention also provides a kind of horizontal engine lathe and horizontal NC lathe, and this horizontal engine lathe and horizontal NC lathe include: lathe, and the above-mentioned hole processing work platform assembly that is connected on lathe, moves back and forth by guide mechanism.
The hole processing work platform assembly of horizontal engine lathe of the present invention and horizontal NC lathe, with compare in prior art, owing to having used motor-driven, slide, the band guide rail bench, Connection Block with guide rail, ball screw, driving-chain together such as shaft joint, motor etc., realized the digital control motion of electromechanical integration, reach motorization, automation fully, solved the manual operations of former mechanism, to the difficult processing of the stepped hole of a plurality of diameters, the replacing cutter is loaded down with trivial details, the problems such as working (machining) efficiency is low, and precision is not easy assurance, and working strength is large.Hole of the present invention processing work platform assembly has been realized changing whole automation mechanized operations into by original pure manual operations in real work, has realized high efficiency, high accuracy and the low-intensity of hole processing on horizontal engine lathe and horizontal NC lathe.
Description of drawings
Fig. 1 is that in prior art, horizontal engine lathe and horizontal NC lathe carry out the top view of the platform tail (also claiming tailstock) of hole processing by rotating handwheel.
In figure: B is the lathe bed of horizontal engine lathe and horizontal NC lathe, and A is the guide pass of saddle and platform tail (also claiming tailstock) on lathe bed, and C is the platform tail, and D is the sleeve in the platform tail, and E is the handwheel of installing on the platform tail.
Fig. 2 be in prior art in corresponding diagram 1 horizontal engine lathe and horizontal NC lathe carry out top view and the cutaway view of the platform tail of hole processing by rotating handwheel.
In figure: H is the nut of ladder type screw rod, and F is the ladder type screw rod, and G is bearing.
Fig. 3 is the front view of the hole processing work platform assembly used according to horizontal engine lathe and the horizontal NC lathe of one of embodiment of the present invention.
In figure: A is the guide pass of saddle and platform tail (also claiming tailstock) on lathe bed, and B is the lathe bed of horizontal engine lathe and horizontal NC lathe, the 15th, and fixation clip, the 16th, screw, the 12nd, the protective jacket of helical steel band.
Fig. 4 is the top view of the hole processing work platform assembly used according to horizontal engine lathe and the horizontal NC lathe of one of embodiment of the present invention.
In figure: A is the guide pass of saddle and platform tail (also claiming tailstock) on lathe bed, B is the lathe bed of horizontal engine lathe and horizontal NC lathe, the 13rd, tapered sleeve, 5 is six station numerically-controlled slides, the 1st, with the workbench of guide rail, the 2nd, with the Connection Block of guide rail, the 3rd, adapter sleeve, the 4th, motor and drive assembly.
Fig. 5 is overlooking of the hole processing work platform assembly used according to horizontal engine lathe and the horizontal NC lathe of one of embodiment of the present invention in corresponding diagram 4 and part cutaway view.
In figure: A is the guide pass of saddle and platform tail (also claiming tailstock) on lathe bed, and B is the lathe bed of horizontal engine lathe and horizontal NC lathe, the 1st, with the workbench, the 11st of guide rail, with the Connection Block of guide rail, the 10th, ball screw nut, 7 screws, the 6th, ball screw, the 9th, locking nut, G is bearing, the 8th, and shaft joint, the 3rd, adapter sleeve, the 16th, locking nut, the 4th, motor and drive assembly, the 12nd, the protective jacket of helical steel band, the 14th, screw.
Fig. 6 is with the structural representation of the workbench of guide rail in corresponding diagram 4.
(6-1) front view; (6-2) upward view; (6-3) top view; (6-4) left view; (6-5) right view.
Fig. 7 is with the schematic diagram of the Connection Block of guide rail in corresponding diagram 4.
(7-1) front view; (7-2) upward view; (7-3) top view; (7-4) left view; (7-5) right view.
Fig. 8 is the structural representation of the adapter sleeve in corresponding diagram 4.
Fig. 9 is the structural representation of the shaft joint in corresponding diagram 5.
Figure 10 is ball screw in corresponding diagram 5 and the structural representation of ball screw nut.
Figure 11 is the structural representation of the fixation clip in corresponding diagram 3.
Figure 12 is the front view of the horizontal engine lathe of another embodiment according to the present invention and the hole processing work platform assembly that horizontal NC lathe is used.
In figure, A is the guide pass of saddle and platform tail (also claiming tailstock) on lathe bed, and B is the lathe bed of horizontal engine lathe and horizontal NC lathe, the 1st, with the workbench of guide rail, the 11st, with the Connection Block of guide rail, 12 helical steel band protective jackets, the 3rd, adapter sleeve, the 4th, motor and drive assembly.
Figure 13 be in corresponding Figure 12 according to the present invention the top view of the horizontal engine lathe of another embodiment and the hole processing work platform assembly that horizontal NC lathe is used.
In figure: A is the guide pass of saddle and platform tail on lathe bed, and B is the lathe bed of horizontal engine lathe and horizontal NC lathe, the 1st, and with the workbench of guide rail, the 3rd, adapter sleeve, the 4th, motor and drive assembly, the 13rd, tapered sleeve.
Figure 14 is the cutaway view of the front view of the hole processing work platform assembly that in corresponding Figure 12, horizontal engine lathe and horizontal NC lathe are used.
In figure: A is the guide pass of saddle and platform tail on lathe bed, and B is the lathe bed of horizontal engine lathe and horizontal NC lathe, the 1st, with the workbench, the 11st of guide rail, with the Connection Block of guide rail, the 10th, ball screw nut, 7 screws, the 6th, ball screw, the 9th, locking nut, G is bearing, the 8th, shaft joint, the 3rd, adapter sleeve, the 16th, locking nut, the 12nd, the helical steel band protective jacket, 5 is six station numerically-controlled slides.
Figure 15 is the structural representation with the workbench of guide rail in corresponding Figure 12.
(15-1) front view; (15-2) upward view; (15-3) top view; (15-4) left view; (15-5) right view.
Figure 16 is with the structural representation of the Connection Block of guide rail in corresponding Figure 12.
(16-1) front view; (16-2) upward view; (16-3) top view; (16-4) left view; (16-5) right view.
Figure 17 is horizontal engine lathe and manual platform tail (also the claiming tailstock) structural representation of doing of grasping of horizontal NC lathe in prior art.
Figure 18 is the structural representation of the horizontal engine lathe of another embodiment according to the present invention and the hole processing work platform assembly that horizontal NC lathe is used.
Figure 19 is the horizontal engine lathe of real another embodiment according to the present invention and the structural representation of the hole processing work platform assembly that horizontal NC lathe is used.
The specific embodiment
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is elaborated, but these are only exemplary, are not intended to its protection domain is carried out any restriction.
Fig. 3-5 show respectively front view, top view and the vertical view cutaway drawing of the hole processing work platform assembly of using according to horizontal engine lathe and the horizontal NC lathe of one of embodiment of the present invention.wherein, the hole processing work platform assembly used of this horizontal engine lathe and horizontal NC lathe comprises, workbench 1 with guide rail, ball screw 6, Connection Block 11 with guide rail, adapter sleeve 3, the protective jacket 12 of ball screw, multi-station digital-controlled knife rest 5, motor and drive assembly 4 (and motor driver), be provided with two cover guide rails on the horizontal engine lathe in its Central Plains or numerical-control horizontal lathe lathe bed, every cover guide rail is comprised of a flat guide and a V-way, two cover guide rail parallels are arranged on the body of lathe bed, guide rail has guide pass A, workbench with guide rail is arranged on one of two cover guide rails, and workbench is done sliding motion along this cover guide rail, multi-station digital-controlled knife rest 5 is arranged on this workbench with guide rail, Connection Block 11 with guide rail is fixed on another set of guide rail, adapter sleeve 3 is fixedly connected on between the Connection Block 11 of guide rail and motor and driver 4 devices, workbench 11 centers with guide rail are provided with ball-screw 6, ball-screw 6 external mounting have protective jacket 3, transfer realization with the reciprocating motion of the workbench of guide rail by the positive and negative of ball screw 6.A cover guide rail that coordinates with saddle on lathe bed, comprise V-way and flat guide, based on the another set of guide rail that coordinates with the platform tail, also comprise V-way and flat guide, specifically, ball screw nut 10 inside are provided with helical orbit, become the rectilinear motion of ball screw nut 10 by rotatablely moving of ball screw, screw 7 is fixed on adapter sleeve 3 on Connection Block 11 with guide rail, locking nut 9 is arranged on ball screw 6, bearing G locking, bearing G is responsible for supporting, the fixing position of ball-screw 6 and adapter sleeve 3; Shaft joint 8 connects an end of ball-screw 6 and the transmission of motor and drive assembly axle one end, be arranged on the locking nut 16 locking bearing G on ball screw 6, helical steel band protective jacket 12 1 ends are connected on workbench with guide rail, the other end is connected on adapter sleeve 3 and plays dustproof effect, and screw 14 is used for locking shaft joint 8.
Along with positive and negative, the rotation of motor and drive unit 4, with shaft joint 8 positive and negative rotation together., by the helical trajectory motion of ball wire 6 and ball screw nut 10 inner rolling elements, driven with past the double action of the workbench 1 of guide rail and transported again and with the positive and negative rotation of ball screw 6 along with the positive and negative rotation of shaft joint 8.
Preferably, with the workbench 1 of guide rail, on former horizontal engine lathe and numerical-control horizontal lathe lathe bed and on the guide pass A of a cover V-way that coordinates on saddle and flat guide, do sliding motion; And with the Connection Block 11 of guide rail be fixed on, on former horizontal engine lathe and numerical-control horizontal lathe lathe bed and on the guide pass A of the another set of V-way that coordinates on the platform tail and flat guide, cooperation fixes.
Preferably, motor and drive assembly 4 are transferred on shaft joint 8, are driven on ball screw 6 by shaft joint 8, ball screw 6 rotates and drives to ball screw nut 10, is transformed into rectilinear motion by rotatablely moving, thereby drives the reciprocating motion with the workbench 1 of guide rail.
Preferably, be processed with two cover guide rails on a face with the workbench 1 of guide rail, a cover guide rail comprises the V-way and the flat guide that coordinate with saddle, does sliding motion with the workbench 1 of guide rail at its guide pass A; Be equipped with fixation clip 15 on both sides with the workbench 1 of guide rail, be equipped with six station numerically-controlled slides 5 on the plane with the workbench 1 of guide rail, like this, the reciprocating motion along with the workbench 1 of guide rail drives the also motion together of six station numerically-controlled slides 5.
Six station numerically-controlled slides 5 can be equipped with a plurality of aperture knife tools, along with the motion of the workbench 1 of guide rail and six station numerically-controlled slides 5, just can carry out the processing in various holes.
Fig. 6-11 have provided respectively each part drawing in the hole processing work platform modular construction that in Fig. 3-5, the horizontal engine lathe of the present invention and horizontal NC lathe are used; Figure 17 is the horizontal engine lathe of another embodiment of the present invention and the integrally-built structural representation of hole processing work platform assembly that horizontal NC lathe is used.
Workbench, Connection Block have been illustrated respectively in Fig. 6-11, connecting axle, and adapter sleeve, shaft joint, ball-screw, the structural representation of ball-screw nut etc., these concrete structures can clearly be seen that from view, do not repeat them here.
Figure 12-14th, the master of the horizontal engine lathe of another embodiment and the hole processing work platform assembly that horizontal NC lathe is used looks, overlooks and the part cutaway view according to the present invention.In present embodiment, with the workbench of guide rail and Connection Block setting position with guide rail, on the guide rail of one of horizontal engine lathe and horizontal NC lathe, two cover guide rails, exchange, so also can realize goal of the invention of the present invention.Wherein, be arranged in Fig. 3-5 on that cover guide rail with the Connection Block 11 of guide rail with the workbench 1 of guide rail, be arranged on the contrary on that cover guide rail with the workbench 1 of guide rail with the Connection Block 11 of guide rail, motor and drive assembly 4 are fixed on adapter sleeve 3, the other end of adapter sleeve 3 is fixed on Connection Block 11 with guide rail, is fixed on the Connection Block 11 of guide rail on the guide pass A of V-arrangement that the lathe bed saddle slides and flat guide.One end of motor and drive unit 4 axles and shaft joint 8 one end secure fit, and the other end of shaft joint 8 and ball screw 6 one ends are fixed, ball screw nut 10 are fixed on workbench 1 with guide rail.
Positive and negative rotation along with motor and drive unit 4, shaft joint 8 is positive and negative rotation together, positive and negative rotation along with shaft joint 8 drives again the positive and negative rotation of ball screw 6 again, by the helical trajectory motion of ball screw 6 and ball screw nut 10 inner rolling elements, driven the past double action fortune with the workbench 1 of guide rail.
Further the, six station numerically-controlled slides 5 can be equipped with branched aperture knife tool, along with the motion of the workbench (1) of guide rail and six station numerically-controlled slides 5, just can carry out the processing in various holes.
Figure 15-16 have provided respectively the part drawing in the hole processing work platform modular construction that in Figure 12-14, horizontal engine lathe of the present invention and horizontal NC lathe are used, and these concrete structures can clearly be seen that from view, do not repeat them here.Figure 18 is the horizontal engine lathe of another embodiment of the present invention and the integrally-built structural representation of hole processing work platform assembly that horizontal NC lathe is used.
Although above having given detail to specific embodiment party of the present invention describes and explanation; but what should indicate is; we can carry out various equivalences to above-mentioned embodiment according to conception of the present invention and change and revise; its function that produces all should be within protection scope of the present invention when still the end exceeds specification and accompanying drawing institute letter lid spiritual.
Claims (5)
1. hole processing work platform assembly that horizontal lathe is used, comprise the workbench with guide rail, ball screw, Connection Block with guide rail, adapter sleeve, the protective jacket of ball screw, multi-station digital-controlled knife rest, motor and drive assembly, be provided with two cover guide rails on the horizontal engine lathe in its Central Plains or numerical-control horizontal lathe lathe bed, every cover guide rail is comprised of a flat guide and a V-way, two cover guide rail parallels are arranged on the body of lathe bed, workbench with guide rail is arranged on one of two cover guide rails, and workbench is done sliding motion along this cover guide rail, multi-station digital-controlled knife rest is arranged on this workbench with guide rail, Connection Block with guide rail is fixed on another set of guide rail, adapter sleeve is fixedly connected on between the Connection Block of guide rail and motor and drive assembly, workbench center with guide rail is provided with ball-screw, the ball-screw external mounting has protective jacket, transfer realization with the reciprocating motion of the workbench of guide rail by the positive and negative of ball screw.
2. the hole processing work platform assembly used of horizontal lathe as claimed in claim 1, wherein, described horizontal lathe comprises horizontal engine lathe and horizontal NC lathe.
3. the hole processing work platform assembly used of horizontal lathe as claimed in claim 1 or 2, wherein, described with guide rail workbench and the setting position of described Connection Block with guide rail exchange between two cover guide rails.
4. the hole processing work platform assembly used of horizontal lathe as claimed in claim 1 or 2, wherein, convert rectilinear motion to by rotatablely moving of ball screw, comes the workbench of rotating band guide rail to move reciprocatingly on the guide rail of one of two cover guide rails on lathe.
5. a horizontal engine lathe and horizontal NC lathe, described horizontal engine lathe and horizontal NC lathe include: lathe, and the claim 1-4 any one described hole processing work platform assembly that is connected on lathe, moves back and forth by guide mechanism.
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CN2011103922248A CN103128336A (en) | 2011-12-01 | 2011-12-01 | Hole-machining component of horizontal lathe |
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CN2011103922248A CN103128336A (en) | 2011-12-01 | 2011-12-01 | Hole-machining component of horizontal lathe |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103317326A (en) * | 2013-06-25 | 2013-09-25 | 江门市高翔自动化设备有限公司 | Linear reciprocating multi-station positioning conveying mechanism |
CN112894008A (en) * | 2019-12-04 | 2021-06-04 | 上海川禾实业发展有限公司 | Cutting machine |
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CN2145663Y (en) * | 1993-01-14 | 1993-11-10 | 文新华 | Automatic boring apparatus for lathe |
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CN200995279Y (en) * | 2007-01-25 | 2007-12-26 | 吴松祥 | Special digital-controlled vertical lathe |
CN201030445Y (en) * | 2007-03-15 | 2008-03-05 | 李文秀 | Lathe tailstock drilling driving device |
CN201183129Y (en) * | 2008-04-16 | 2009-01-21 | 范宜华 | Lathe auto-feed boring device |
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Patent Citations (7)
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US2370286A (en) * | 1941-12-18 | 1945-02-27 | Karl F Berger | Lathe |
JPS5894906A (en) * | 1981-11-30 | 1983-06-06 | Aisin Warner Ltd | Drill and drilling method using the drill |
CN2145663Y (en) * | 1993-01-14 | 1993-11-10 | 文新华 | Automatic boring apparatus for lathe |
CN200991777Y (en) * | 2006-10-17 | 2007-12-19 | 曹滨 | Cyclone turning lathe |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN103317326A (en) * | 2013-06-25 | 2013-09-25 | 江门市高翔自动化设备有限公司 | Linear reciprocating multi-station positioning conveying mechanism |
CN112894008A (en) * | 2019-12-04 | 2021-06-04 | 上海川禾实业发展有限公司 | Cutting machine |
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